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Position overview We are seeking applicants for an 18-months postdoctoral fellowship focusing on the development of an AI-based phenotyping system for high-throughput screening for aphid
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and actuate [2], which opens new possibilities for controlling cellular function. In the recently funded RIBOTICS (RNA Origami Technology in Cell Systems) project, the lab aims to develop RNA origami
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and actuate [2], which opens new possibilities for controlling cellular function. In the recently funded RIBOTICS (RNA Origami Technology in Cell Systems) project, the lab aims to develop RNA origami
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research project Disruptions in protein quality control lead to the accumulation of misfolded proteins and protein aggregates. Aggrephagy, a selective form of autophagy, is a key pathway for the clearance
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and power (CHP), and application-specific energy storage systems. We are also exploring how quantum computing can unlock new optimization and control strategies in future power systems. Our projects
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and/or language skills Hands-on skills and programming experience Who we are The robot design and control team led by Xuping Zhang is dedicated to advancing robotic interaction and manipulation, with a
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experimental verification of several RNA systems that can regulate gene expression, control enzyme proximity, sense product yields, and do molecular computations for feedback control. The successful candidate
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systems, perfusion platforms or pressure-controlled systems Experimental system development and troubleshooting MR, metabolic imaging or related measurement technologies We are looking for a motivated and
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a team of 3 postdocs and 3 PhD students, who will work on design, characterization, and experimental verification of several RNA systems that can regulate gene expression, control enzyme proximity
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phenotyping experiments in field or controlled environments. Who we are and what we offer The Department of Molecular Biology and Genetics at Aarhus University is a vibrant and exciting interdisciplinary